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AN8003M Datasheet(PDF) 6 Page - Panasonic Semiconductor |
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AN8003M Datasheet(HTML) 6 Page - Panasonic Semiconductor |
6 / 7 page Tj=25˚C VI=9.5 to 15V, Tj=25˚C IO=1 to 40mA, Tj=25˚C VDIF (min.) VI=8.8V, IO=20mA, Tj=25˚C VI=8.8V, IO=50mA, Tj=25˚C IO=1 to 50mA, Tj=25˚C IO=0mA, Tj=25˚C Note1) The specified condition Tj=25˚C means that the test should be conducted with each test time reduced (within 10ms) so that the drift in characteristic value due to a temperature rise at chip junction can be ignored. Note2) Unless otherwise specified, VI=10V, IO=20mA, CO=10 µF VI=10 to 12V, f=120Hz µV Vno mV/˚C f=10Hz to 100kHz ∆V O/Ta Tj=–30 to+125˚C s Electrical Characteristics (Ta=25˚C) · AN8009/AN8009M (9V Type) VO 9.36 V 9 REGIN mV REGL 70 mV mV V 0.07 V mA 0.8 Ibias dB RR Vno 0.45 75 100 0.2 0.3 1.4 8.64 47 0.14 9 17 37 150 59 Parameter Symbol Condition min typ max Output voltage Line regulation Load regulation Minimum I/O voltage difference Bias current Ripple rejection ratio Output noise voltage Output voltage temperature coefficient Unit Tj=25˚C VI=10.5 to 16V, Tj=25˚C IO=1 to 40mA, Tj=25˚C VDIF (min.) VI=9.8V, IO=20mA, Tj=25˚C VI=9.8V, IO=50mA, Tj=25˚C IO=1 to 50mA, Tj=25˚C IO=0mA, Tj=25˚C Note1) The specified condition Tj=25˚C means that the test should be conducted with each test time reduced (within 10ms) so that the drift in characteristic value due to a temperature rise at chip junction can be ignored. Note2) Unless otherwise specified, VI=11V, IO=20mA, CO=10 µF VI=11 to 13V, f=120Hz µV Vno mV/˚C f=10Hz to 100kHz ∆V O/Ta Tj=–30 to+125˚C · AN8010/AN8010M (10V Type) VO 10.4 V 10 REGIN mV REGL 75 mV mV V 0.07 V mA 0.8 Ibias dB RR Vno 0.5 85 100 0.2 0.3 1.4 9.6 46 0.14 10 18 40 165 58 Parameter Symbol Condition min typ max Output voltage Line regulation Load regulation Minimum I/O voltage difference Bias current Ripple rejection ratio Output noise voltage Output voltage temperature coefficient Unit 10 µF Vout Vin AN8000 AN8000M – + 0.33 µF The AN8000/AN8000M series has IC internal gain increased in order to improve performance. When the power line on the output side is long, use a capacitor of 10 µF. For the capacitor on the output side, attach it as close to the IC as possible. When using at a low temperature, it is recommended to use the capacitors with low internal impedance (for example, tantalum capacitor) for output capacitors. s Application Circuit |
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